Abstract: A device includes a medical instrument mounting structure; a base; and a gearless longitudinal translation device connected to and enabling longitudinal movement of the medical instrument mounting structure with respect to the base. The gearless longitudinal translation device includes: a first friction wheel having at least a first beveled side surface, and a second friction wheel having at least a second beveled surface; a first linear rod disposed between the first and second friction wheels and in contact with the first and second beveled surfaces; and a control mechanism attached to the first and second friction wheels for rotating the first and second friction wheels. Rotation of the first and second friction wheels causes a longitudinal displacement of the first linear rod with respect to the first and second friction wheels, which in turn causes the medical instrument mounting structure to be longitudinally displaced with respect to the base.

Abstract: A device includes an ultrasound probe including an elongated neck insertable in a patient and rotatable around a first longitudinal axis, an ultrasound transducer, and an elongated body rotatable around a second longitudinal axis that is parallel to and offset from the first longitudinal axis. The elongated body is removably attached to a probe mounting structure. A shaft is attached to the probe mounting structure, where rotation of the shaft causes corresponding rotation of the probe mounting structure and the attached elongated body of the ultrasound probe. The shaft defines a longitudinal shaft channel in an interior portion and a longitudinal shaft groove extending from a surface of the shaft to the longitudinal shaft channel. A cable is insertable into the longitudinal shaft channel through the longitudinal shaft groove, and enters an internal channel of the ultrasound probe through the longitudinal shaft channel enabling electrical connection with the ultrasound transducer.

Abstract: A device includes an ultrasound probe including an elongated neck insertable in a patient and rotatable around a first longitudinal axis, an ultrasound transducer, and an elongated body rotatable around a second longitudinal axis that is parallel to and offset from the first longitudinal axis. The elongated body is removably attached to a probe mounting structure. A shaft is attached to the probe mounting structure, where rotation of the shaft causes corresponding rotation of the probe mounting structure and the attached elongated body of the ultrasound probe. The shaft defines a longitudinal shaft channel in an interior portion and a longitudinal shaft groove extending from a surface of the shaft to the longitudinal shaft channel. A cable is insertable into the longitudinal shaft channel through the longitudinal shaft groove, and enters an internal channel of the ultrasound probe through the longitudinal shaft channel enabling electrical connection with the ultrasound transducer.

Abstract: An apparatus for controlling a needle guide includes a first lever, a second lever, a first cam and a second cam. The first cam is attached to and extends from the first lever to a housing under the needle guide. The second cam is attached to and extends from the second lever to the housing under the needle guide. At least one of the first cam and the second cam is configured to translate rotational movement from the first lever and the second lever to both linear and rotational movement of the needle guide via the housing.

Abstract: An apparatus for controlling a needle guide includes a first lever, a second lever, a first cam and a second cam. The first cam is attached to and extends from the first lever to a housing under the needle guide. The second cam is attached to and extends from the second lever to the housing under the needle guide. At least one of the first cam and the second cam is configured to translate rotational movement from the first lever and the second lever to both linear and rotational movement of the needle guide via the housing.

Abstract: A device includes a medical instrument mounting structure; a base; and a gearless longitudinal translation device connected to and enabling longitudinal movement of the medical instrument mounting structure with respect to the base. The gearless longitudinal translation device includes: a first friction wheel having at least a first beveled side surface, and a second friction wheel having at least a second beveled surface; a first linear rod disposed between the first and second friction wheels and in contact with the first and second beveled surfaces; and a control mechanism attached to the first and second friction wheels for rotating the first and second friction wheels. Rotation of the first and second friction wheels causes a longitudinal displacement of the first linear rod with respect to the first and second friction wheels, which in turn causes the medical instrument mounting structure to be longitudinally displaced with respect to the base.

Abstract: An apparatus for controlling a needle guide includes a first lever, a second lever, a first cam and a second cam. The first cam is attached to and extends from the first lever to a housing under the needle guide. The second cam is attached to and extends from the second lever to the housing under the needle guide. At least one of the first cam and the second cam is configured to translate rotational movement from the first lever and the second lever to both linear and rotational movement of the needle guide via the housing.

Abstract: A device includes an ultrasound probe including an elongated neck insertable in a patient and rotatable around a first longitudinal axis, an ultrasound transducer, and an elongated body rotatable around a second longitudinal axis that is parallel to and offset from the first longitudinal axis. The elongated body is removably attached to a probe mounting structure. A shaft is attached to the probe mounting structure, where rotation of the shaft causes corresponding rotation of the probe mounting structure and the attached elongated body of the ultrasound probe. The shaft defines a longitudinal shaft channel in an interior portion and a longitudinal shaft groove extending from a surface of the shaft to the longitudinal shaft channel. A cable is insertable into the longitudinal shaft channel through the longitudinal shaft groove, and enters an internal channel of the ultrasound probe through the longitudinal shaft channel enabling electrical connection with the ultrasound transducer.